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Esha_parser.py
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Esha_parser.py
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import sys
import pylab as pl
import numpy as np
from matplotlib.pyplot import *
colors = [
'LimeGreen',
'IndianRed',
'LightSalmon',
'Pink'
]
fig = pl.figure()
fig.suptitle('Convergence', fontsize=14, fontweight='bold')
p1 = Rectangle((0, 0), 1, 1, fc="LimeGreen")
p2 = Rectangle((0, 0), 1, 1, fc="IndianRed")
p3 = Rectangle((0, 0), 1, 1, fc="LightSalmon")
p4 = Rectangle((0, 0), 1, 1, fc="Pink")
legend([p1, p2, p3, p4], ["Execution", "Full Compilation", "Opt Compilation", "Our Overhead"])
inputfile = open(sys.argv[1],"r")
outputfile = open(sys.argv[2], "w")
Full_compilation_ms = 0
Opt_compilation_ms = 0
Full_execution_ms = 0
Opt_execution_ms = 0
LEZ_execution_ms = 0
LEZ_execution_us = 0
Full_compilation_us = 0
Opt_compilation_us = 0
Full_execution_us = 0
Opt_execution_us = 0
lastexec = 0
start = 0
end = 0
for line in inputfile:
linearray = line.split();
if len(linearray)<6 :
continue
try:
if (linearray[0]=='Esha_time' and linearray[2]=='execution') :
if linearray[1]=='Full' :
if lastexec != 0:
times = list(xrange(start,end+1,1))
x = np.linspace(times[0], times[-1], 2)
pl.fill_between(x, 25-(lastexec*5), 30-(lastexec*5), lw=0, color=colors[lastexec])
lastexec = 0
start = end
Full_execution_us+=int(linearray[5])
Full_execution_ms+=int(float(Full_execution_us)/1000)
Full_execution_us%=1000
end = end + int(linearray[5])
else:
if lastexec != 0:
times = list(xrange(start,end+1,1))
x = np.linspace(times[0], times[-1], 2)
pl.fill_between(x, 25-(lastexec*5), 30-(lastexec*5), lw=0, color=colors[lastexec])
lastexec = 0
start = end
Opt_execution_us+=int(linearray[5])
Opt_execution_ms+=int(float(Opt_execution_us)/1000)
Opt_execution_us%=1000
end = end + int(linearray[5])
if (linearray[0]=='Esha_time' and linearray[2]=='compilation'):
if len(linearray)<7 :
continue
if linearray[1]=='Full':
if lastexec != 1:
times = list(xrange(start,end+1,1))
x = np.linspace(times[0], times[-1], 2)
pl.fill_between(x, 25-(lastexec*5), 30-(lastexec*5), lw=0, color=colors[lastexec])
lastexec = 1
start = end
Full_compilation_us+=int(linearray[6])
Full_compilation_ms+=int(float(Full_compilation_us)/1000)
Full_compilation_us%=1000
end = end + int(linearray[6])
else:
if lastexec != 2:
times = list(xrange(start,end+1,1))
x = np.linspace(times[0], times[-1], 2)
pl.fill_between(x, 25-(lastexec*5), 30-(lastexec*5), lw=0, color=colors[lastexec])
lastexec = 2
start = end
Opt_compilation_us+=int(linearray[6])
Opt_compilation_ms+=int(float(Opt_compilation_us)/1000)
Opt_compilation_us%=1000
end = end + int(linearray[6])
if (linearray[0]=='Esha_time' and linearray[1]=='LEZ') :
if lastexec != 3:
times = list(xrange(start,end+1,1))
x = np.linspace(times[0], times[-1], 2)
pl.fill_between(x, 25-(lastexec*5), 30-(lastexec*5), lw=0, color=colors[lastexec])
lastexec = 3
start = end
LEZ_execution_us+=int(linearray[5])
LEZ_execution_ms+=int(float(LEZ_execution_us)/1000)
LEZ_execution_us%=1000
end = end + int(linearray[5])
except ValueError:
continue
pl.ylim([5,40])
pl.grid(True)
savefig('foo.png', bbox_inches='tight')
outputfile.writelines("Full compilation time is ")
outputfile.write('%d ms %d us \n' %(Full_compilation_ms, Full_compilation_us))
outputfile.writelines("Opt compilation time is ")
outputfile.write('%d ms %d us \n' %(Opt_compilation_ms,Opt_compilation_us))
outputfile.writelines("Our overhead time is ")
outputfile.write('%d ms %d us \n' %(LEZ_execution_ms,LEZ_execution_us))
outputfile.writelines("Total execution time is ")
Total_us=Full_execution_us+Opt_execution_us
Total_ms = Full_execution_ms+Opt_execution_ms+Total_us/1000
Total_us = Total_us%100
outputfile.write('%d ms %d us \n' %(Total_ms,Total_us))
outputfile.writelines("Total time is ")
Total_us=Full_compilation_us+Full_execution_us+Opt_compilation_us+Opt_execution_us
Total_ms = Full_compilation_ms+Full_execution_ms+Opt_compilation_ms+Opt_execution_ms+Total_us/1000
Total_us = Total_us%100
outputfile.write('%d ms %d us \n' %(Total_ms,Total_us))
inputfile.close()
outputfile.close()